JP2002078511A - Hook and loop fastener for reducing damage of loop - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a flexible hook and loop fastener reducing damage of a loop. SOLUTION: This hook and loop fastener is formed by arranging loop yarn for constituting a hook having fineness of 100 to 200 denier and the ground warp adjacent to the loop yarn in the opposite phase relationship to the ground weft, and has hook density of 80 to 200 pieces/cm2.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hook-and-loop fastener comprising a hook-shaped engaging element and a loop-shaped fastener comprising a loop-shaped engaging element. The present invention relates to a hook-and-loop fastener having a hook hook-and-loop fastener that causes less damage to an engaging loop.

[0002]

2. Description of the Related Art A hook-and-loop fastener (hereinafter sometimes abbreviated as a hook) and a loop-shaped engagement element (hereinafter sometimes abbreviated as a loop) are engaged with each other to use a hook-and-loop fastener in various applications. Widely used for. The use of the fastener is intended to be an alternative to other locking means such as hooks and string binding, and a hook-and-loop fastener for engaging as strongly as possible has been developed and used.

However, in recent years, as the use of hook-and-loop fasteners has expanded, in addition to the necessity of a high engaging force, there has been a growing demand for hook hook-and-loop fasteners that cause less damage to the loop-shaped engaging element with which the hook is engaged. This is because hook-and-loop fasteners are used for various types of clothing, especially in thin clothing and clothing used near the skin, because the loop fastener becomes thin or flexible. Is required not to damage the loop. In addition, an aspect in which a nonwoven fabric having an engaging ability is used in place of the loop surface fastener is increasing, and it is required that the surface of the nonwoven fabric is not damaged. 6-52521
From such a viewpoint, Japanese Patent Laid-Open Publication No. H11-214904 proposes a hook surface fastener that is flexible and has less damage to a loop.

[0004]

The inventors of the present invention have examined the above-mentioned known technique, and found that the hook-surface fastener obtained by the technique still damages the loop considerably, and it is necessary to improve prevention of damage to the loop. Admitted. That is, according to the present invention, a loop yarn forming a hook having a fineness of 100 to 200 denier and a ground warp adjacent to the loop yarn are arranged in a reverse phase relationship with a ground weft.
A hook surface fastener having a hook density of 0 to 200 hooks / cm ² , preferably with respect to such a hook surface fastener, in a hook-like engagement element arranged in a longitudinal direction, in a facing relationship. A: b, which is the ratio of the distance a between the pair of hook vertices a and the distance b between the vertices adjacent to the hooks in a back-to-back relationship.
Is a hook surface fastener in which hook-shaped engaging elements are arranged in a range of 1: 0.58 to 1: 1.75.

[0005] The present invention also relates to a hook surface flap as described above.
Fastener and multifilament of 2 to 20 denier single fiber fineness
A large number of loops composed of lament have a density of 50 to 500 /
cm ^TwoComposed of woven loop surface fasteners
Hook and loop fastener.

Further, the present invention relates to a hook-and-loop fastener comprising a hook hook-and-loop fastener as described above and a non-woven cloth made of fibers having a single fiber fineness of 1 to 20 denier and having a brushed state in which a large number of loops are erected on the surface thereof. It is.

The present inventors have studied the engagement of a hook with a thin or flexible loop. As a result, in order to reduce the damage to the loop, the unit hook is made of low-fineness fiber to reduce the hook engagement force. However, it was first recognized that it was necessary to increase the number of hook elements to compensate for the reduced engaging force and maintain the engaging force of the entire surface fastener. However, although the hook surface fastener constructed from the above viewpoint reduces the damage to the loop to some extent, no further improvement was obtained. The present inventors have further studied and found that the uniformity of the arrangement of the hook elements is important. In a hook and loop fastener having a high density of hooks, if the arrangement is not uniform, a plurality of hooks may engage with one loop. And formed a strong engagement, increasing the probability of breaking the loop. Therefore, it has been recognized for the first time that the object of the present invention cannot be achieved only by the fineness and density of the hook, and that the uniform arrangement degree of the hook is important together with the density.

The hook surface fastener of the present invention has a fineness of 10
0-200 denier hook monofilament
Formed by weaving with ground warp and weft constituting fabric
Is done. Hook loop formed from the monofilament
80-200 pieces / cm ^TwoHaving a density of The present invention
Hooks are very fine in size compared to normal hooks
Formed from filament, engaging force of unit hook
Is small and needs the above hook density to make up for it
It is. 80 pieces / cm^TwoEngagement force is low at low density
No, 200 pieces / cm^TwoAt high densities beyond
The loop-shaped engagement element, which is
The resultant force decreases.

As a result of examining the factors for arranging the high-density hook loops on the base cloth, it was recognized that the woven structure was important, and the following examination was made. The conventional weaving of the hook surface fastener including the above prior art is a weaving system in which a monofilament (warp) for hooks is inserted between ground warps having a plain weave structure, and this structure has a plurality of ground monofilaments for hooks. And was considered to be firmly fixed to the ground fabric.

However, after weaving the hook-and-loop fastener,
It has been found that when the fibers move before the resin is back-coated, the positions of the hook loops formed on the base fabric move, and the uniform arrangement degree is impaired. In the conventional weaving structure, the ground warp arranged together with the hook monofilament may move in the unit area of the ground structure, and the movement of the ground warp arranged together with the hook monofilament may move without the movement of the hook monofilament itself. Displacement of the hook occurs, and its uniform arrangement is impaired. The above-mentioned degree of uniform arrangement is particularly the uniformity of arrangement in the length direction of the hook, and the degree of arrangement in the horizontal direction of the hook is regulated by the ground weave structure of the base cloth, and there is no problem in the uniformity. What fluctuates with the degree of hook placement is
This is the arrangement in the length direction, and the study of its uniformity has not been studied at all.

Since the hook warp is in the same phase as one of the adjacent ground warps, that is, in the aligned state, the coarse monofilament for hooks is easily shifted to the aligned ground warp side, and the ground weft which intersects is shifted. It has been found that it is difficult to uniformly arrange the loop positions of the hook warp yarns in order to make it easier. The hook of the present invention comprises a monofilament forming a hook and a ground warp adjacent to the monofilament,
It has a woven structure that is arranged in a reverse phase relationship with the loop yarn with respect to the ground weft. With this structure, only the monofilament for hooks is arranged in the unit area of the ground structure, and there is no ground warp co-located therewith, so that the fixation of the monofilament for hooks to the ground structure is improved, and the hooks can be hooked up to the backcoat treatment. The displacement is greatly reduced. The hooks formed by the above-described woven structure have greatly improved uniform arrangement as compared with the conventional high-density hook surface fasteners.

Further, in the conventional hook surface fastener using the above-mentioned plain weave, usually, a monofilament for a hook having a thickness of 220 denier or more is used, and the hook density is also 80%.
Pieces / cm ² . In this conventional hook and loop fastener,
The purpose of the hook element is to obtain high strength and high engagement force. The present invention uses a ground texture that is fundamentally different from the conventional one, and further uses a different monofilament for the hook from the conventional one, thereby achieving a completely different purpose and effect from the conventional one. Is obtained.

The degree of uniform arrangement of the hook surface fastener according to the present invention is measured by the following method. A cross section in the length direction of the hook surface fastener viewed from the width direction (perpendicular to the length direction) is photographed at a magnification of 50 times, and any 30 pieces selected from the distance between the apexes of the hooks of the photograph. A distance a between a pair of hook vertices in a facing relationship and a distance b between vertices between adjacent hooks in a back-to-back relationship.
Is measured, and a: b is obtained for each of 30 samples. In the present invention, the ratio of a: b is 1: 0.58 to 1: 1.75,
It means that the average value of the 30 values of a: b falls within this range, and that more than half of the 30 values fall within this range.

In the hook surface fastener of the present invention, the hooks are preferably arranged such that a: b is in the range of 1: 0.58 to 1: 1.75, more preferably 1: 0.60.
~ 1: 1.70, more preferably 1: 0.65-1:
1.60. a: b is less than 0.58 or 1.75
In particular, in the case of high-density hook hook-and-loop fasteners, there are many hooks that are close to the adjacent hooks and seemingly integrated and act in the same way as hooks made of thick denier. There is.

The present invention will be described below with reference to the drawings. FIG.
FIG. 1 is a perspective plan view showing a woven structure of a most preferred example of a hook surface fastener according to the present invention. A monofilament 3 forming a hook together with a ground warp yarn 1 and a ground weft yarn 2 of a base fabric constituting a hook-and-loop fastener is integrally woven. A hook is formed by cutting an appropriate portion of the monofilament 3 constituting the loop between the loop apex and the root of the loop, one portion for each loop. The number of ground warps and ground wefts can be set arbitrarily, but the unit area U (area divided by hatched ground warp and ground weft) composed of ground warp and ground weft has a monofilament 3 for hooks. Is 1
Only the book exists, and the ground warp yarn 1 adjacent to the monofilament is arranged with respect to the ground weft yarn 2 in an opposite phase relationship to the monofilament. That is, the monofilament and the ground warp are arranged upside down with respect to the ground weft.

FIG. 2 is a perspective plan view showing a woven structure of a conventional high-density hook surface fastener, and an area corresponding to the unit area in FIG. 1 is indicated by U ′. In U ′, at least one ground warp 1 exists along with the monofilament at a position close to or away from the hook monofilament. Therefore, in this unit area, when at least one of the monofilament and the ground warp yarn 1 moves, the position of the hook monofilament in the base fabric changes, and the arrangement of the loop formed by the monofilament is displaced.

FIG. 3 is an enlarged schematic view showing the arrangement of the hook loops in the length direction of the present invention, and is a cross-sectional view taken along arrow X in FIG. A monofilament 3 is woven with the ground weft 2 (shown in cross section) to form a loop. One hook shown by a solid line is formed from one loop. The distance between the vertices of a pair of hooks facing each other is defined as a, and the distance between the vertices of an adjacent back-to-back hook is defined as b.
In the present invention, the pair of loops facing each other and the pair of back-to-back loops face each other at a certain angle as shown in FIG. 1 in addition to the case where they are completely facing each other or are completely back-to-back. Or, it includes a loop pair in a back-to-back state.

FIG. 4 is an enlarged schematic view showing the arrangement of the hook loops of the conventional high-density hook hook-and-loop fastener in the length direction, and is a cross-sectional view taken along an arrow X in FIG. As in FIG.
When the distance between the vertices of the pair of hooks facing each other is a and the distance between the vertices of the adjacent back-to-back hooks is b, and they are compared with the arrangement of the hook of the present invention in FIG. 3, the ratio of a: b is as follows. Is different.

In the present invention, the hook forming loop is
As shown in FIG. 1, one or a plurality (one in FIG. 1)
Under the weft (sinking), floats on the next one or more (one in FIG. 1) wefts, forms a loop in the floating state, and forms the next weft. It is preferably formed so as to pass underneath. The ground warp is woven into a 3-1 weave (three adjacent warps pass under the weft in units of three, float on the next weft, pass under the next weft, and pass through the three warps. The adjacent warp is a woven structure having a hollow / floating structure (floating / sinking structure) opposite to the three warp yarns.
The warp constituting the main warp is woven in a reverse relationship to the up-and-down relationship of the three warps, and one root of the loop exists between the three warps and the other root is adjacent to the three warp. Exists between the three warps existing beyond the one warp existing in the warp. Thus, in the loop forming the hook, it is preferable that one root and the other root exist between different warps and different wefts.

As described above, the ground warp design is 3-
One woven structure is most preferable, but 2-1 woven structure, 4-1
It may be a woven structure or the like, or may be a 2-2 woven structure or a 3-2 woven structure. However, in the case of the 1-1 plain weave design, the loop yarn forming the hook and the ground warp adjacent to the loop yarn cannot be arranged in an opposite phase relationship with the ground weft. For ground weft,
A single warp structure may be provided for the ground warp, or a plurality of warp yarns may be formed. In the present invention, the fiber material constituting the ground warp yarn, ground weft yarn and hook forming monofilament is not particularly limited, but polyamides represented by nylon-6 and nylon-66 and polyesters represented by polyethylene terephthalate. Are preferably used.

The hook surface fastener of the present invention is used with a loop surface fastener or a nonwoven fabric having a loop-like fiber structure on the surface. The hook surface fastener of the present invention,
It can also be used for normal loop surface fasteners. What exhibits the feature more is a high-density loop surface fastener in which the loop is constituted by a multifilament having a fineness and the density is 50 to 500 / cm ² . In addition, the single fiber fineness is 1 to
Non-woven fabric consisting of short fibers or long fibers of 20 denier,
A nonwoven fabric having a large number of loops standing on its surface can also be suitably used. The loop of the nonwoven fabric is in addition to the narrowly defined loop shape
It may have a long fiber end that engages the hook.

The material of the multifilament constituting the loop surface fastener is not particularly limited.
Polyamides represented by nylon-6 and nylon-66 and polyesters represented by polyethylene terephthalate are preferably used. When a non-woven fabric is used as the loop fastener, the type of fibers constituting the non-woven fabric is not particularly limited, but natural fibers such as cotton and wool, regenerated fibers such as rayon and acetate, or semi-synthetic fibers Further, any of synthetic fibers such as nylon fibers, polyester fibers, acrylic fibers, and polyolefin fibers may be used. Preferably, it is a synthetic fiber because it is less damaged by hooks. The nonwoven fabric may be a nonwoven fabric in which short fibers are entangled by a needle punch or the like, or a spunbond nonwoven fabric made of long fibers.

The hook surface fastener according to the present invention is engaged with the loop surface fastener, and its performance is determined according to JIS-L-34.
When measured in accordance with No. 16, the adhesive strength and the retention rate of the adhesive strength are equal to or higher than those of the conventional high-density hook surface fastener, and the damage degree of the mating loop surface fastener fabric after 2,000 times of repeated peeling is the same as that of the conventional product. Very few compared. In addition, JIS-L-1096, 6-
Evaluation was performed by the 17 E method (Martindale method). The hook surface fastener was attached to the sample holder, the body fabric was attached to the standard friction cloth side, and the degree of damage of the body fabric after 50 times of friction was evaluated. As a result, the hook of the present invention was compared with the conventional high-density hook surface fastener. The degree to which the fastener damaged the body fabric was extremely small.

[0024]

The present invention will be described below by way of examples. Example 1 and Comparative Example 1 Nylon 66, 140d / 14f for ground warp (1), nylon 66, 110d / 24f for ground weft (2), and nylon 66, 120d / 1f for loop yarn for hook formation (3). Then, an uncut loop woven tape having a woven structure shown in FIG.
A hook was formed by cutting one piece of the loop to obtain a hook-and-loop fastener of the present invention. The hook density of the obtained surface fastener was 143 pieces / cm ² , and the degree of arrangement in the hook length direction was 1:
It was 1.35. An uncut loop tape was produced with the same weaving configuration as shown in FIG. 2 and a conventional high-density hook surface fastener was produced by the same processing method as a comparative sample (Comparative Example 1). The hook density of the hook-and-loop fastener is 1
43 pieces / cm ² , the degree of arrangement in the hook length direction is 1: 0.5
It was one.

These hook-surface fasteners were formed by using a nylon 6 multifilament (11 denier fineness: 6.1 denier).
0d / 18f) and a brushed tricot having a loop planting density of 250 fibers / cm ² as a loop surface fastener, the adhesive strength, the degree of damage to the loop surface fastener after repeated peeling, and the body fabric (processed yarn knit fabric) ) Was evaluated. From Table 1, it can be seen that the hook surface fastener of the present invention has better initial and repeated adhesive strength than the conventional high-density hook surface fastener, and that both the loop surface fastener and the main body fabric (processed yarn knit fabric) are damaged. It turns out that there are few.

Example 2 and Comparative Example 2 Nylon 66, 100d / 1f
A hook surface fastener of the present invention and a conventional high-density hook surface fastener (Comparative Example 2) were produced in the same manner as in Example 1 except for the above. The hook density and the arrangement in the hook length direction of the obtained hook-and-loop fastener are 187 pieces / cm, respectively.
² , 1: 0.80 and 187 / cm ² , 1: 0.40. Using these surface fasteners as a loop surface fastener, a polyester needle punch with a single fiber fineness of 3d is used.
The adhesive strength, the adhesive strength retention rate, and the degree of damage to the loop surface fastener after repeated peeling were evaluated. Table 2 shows the results.
From this, it can be seen that the hook surface fastener of the present invention has a good adhesive strength and a good retention rate and extremely little damage to the loop surface fastener as compared with the conventional product.

[0027]

[Table 1]

[0028]

[Table 2]

[0029]

According to the present invention, it is possible to obtain a hook surface fastener which is high-density, flexible and has little damage to the loop-shaped engaging element. INDUSTRIAL APPLICABILITY The hook surface fastener of the present invention can be used as a normal loop surface fastener, a loop surface fastener having a high loop density, or a raised nonwoven fabric, so that the damage to those loops can be significantly improved.

[Brief description of the drawings]

FIG. 1 is a perspective plan view showing a woven structure of an example of a hook surface fastener of the present invention.

FIG. 2 is a perspective plan view showing a woven structure of a conventional high-density hook surface fastener.

FIG. 3 is an enlarged schematic view showing an arrangement of a hook loop of the present invention in a length direction.

FIG. 4 is an enlarged schematic diagram showing the arrangement of hook loops in the length direction of a conventional high-density hook surface fastener.

[Explanation of symbols]

 1: ground warp 2: ground weft 3: monofilament for hook U, U ': unit area formed by ground yarn

Claims (4)

[Claims] 1. A loop yarn forming a hook having a fineness of 100 to 200 deniers and a ground warp adjacent to the loop yarn are arranged in a reverse phase relationship with a ground weft yarn.
A hook surface fastener having a hook density of 00 pieces / cm ² . 2. In a hook-shaped engaging element arranged in the longitudinal direction, a ratio between a distance a between a pair of hook vertices facing each other and a distance b between vertices of adjacent hooks having a back-to-back relationship is determined. A: b is 1: 0.58-
The hook surface fastener according to claim 1, wherein the hook-shaped engagement elements are arranged in a range of 1: 1.75. 3. A hook surface fastener according to claim 1, further comprising:
It is a multifilament with a fiber fineness of 2 to 20 denier.
Many loops have a density of 50-500 loops / cm ^TwoErected in
Hook and loop fasteners
Ner. 4. A hook-and-loop fastener according to claim 1, wherein said hook-and-loop fastener comprises a non-woven fabric made of fibers having a single fiber fineness of 1 to 20 denier and having a raised surface on which a number of loops are erected.